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A non-canonical role of glycolytic metabolites controlling the timing of mouse embryo segmentation

A non-canonical role of glycolytic metabolites controlling the timing of mouse embryo segmentation
A non-canonical role of glycolytic metabolites controlling the timing of mouse embryo segmentation

Studies on the impact of metabolism on cell fate decisions are seeing a renaissance. However, a key challenge remains to distinguish signaling functions of metabolism from its canonical bioenergetic and biosynthetic roles, which underlie cellular homeostasis. Here, we tackled this challenge using mouse embryonic axis segmentation as an experimental model. First, we found that energetically subminimal amounts of glucose can support ongoing segmentation clock activity, providing evidence that glycolysis exerts a signaling function. Using a dynamical systems approach based on entrainment, we identified fructose 1,6-bisphosphate (FBP) as the potential signaling metabolite. Functionally, we demonstrated that glycolytic flux/FBP control the segmentation clock period and Wnt signaling in an anticorrelated manner. Critically, we showed that the slow segmentation clock phenotype caused by elevated glycolysis is mediated by Wnt signaling rather than cellular bioenergetic and biosynthetic state. Combined, our results demonstrate a modular organization of metabolic functions, revealing a signaling module of glycolysis that can be decoupled from its canonical metabolic functions.

2375-2548
eadz9606
Miyazawa, Hidenobu
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Rada, Jona
fdf81546-8c64-4912-a0e5-d86ec8803ca6
Prior, Nicole
27851f03-6041-4409-a15c-a2a164b883e0
Sanchez, Paul Gerald Layague
bb92fe6f-8392-4ded-89fe-1c5a55fe1f2e
Esposito, Emilia
34094502-5328-4f13-adf4-dd3262cd9a8e
Bunina, Daria
937f3a86-5bce-4fec-a9d1-61374a6f7cb6
Girardot, Charles
4546aad6-4dc3-481b-bf7e-46b66acc5828
Zaugg, Judith
91611231-a343-484e-9f48-24da830539ea
Aulehla, Alexander
6fefa280-b37c-485d-b714-2581e8233d14
Miyazawa, Hidenobu
72a89367-8047-4dab-b04d-fc28099eaf5f
Rada, Jona
fdf81546-8c64-4912-a0e5-d86ec8803ca6
Prior, Nicole
27851f03-6041-4409-a15c-a2a164b883e0
Sanchez, Paul Gerald Layague
bb92fe6f-8392-4ded-89fe-1c5a55fe1f2e
Esposito, Emilia
34094502-5328-4f13-adf4-dd3262cd9a8e
Bunina, Daria
937f3a86-5bce-4fec-a9d1-61374a6f7cb6
Girardot, Charles
4546aad6-4dc3-481b-bf7e-46b66acc5828
Zaugg, Judith
91611231-a343-484e-9f48-24da830539ea
Aulehla, Alexander
6fefa280-b37c-485d-b714-2581e8233d14

Miyazawa, Hidenobu, Rada, Jona, Prior, Nicole, Sanchez, Paul Gerald Layague, Esposito, Emilia, Bunina, Daria, Girardot, Charles, Zaugg, Judith and Aulehla, Alexander (2025) A non-canonical role of glycolytic metabolites controlling the timing of mouse embryo segmentation. Science Advances, 11 (38), eadz9606. (doi:10.1126/sciadv.adz9606).

Record type: Article

Abstract

Studies on the impact of metabolism on cell fate decisions are seeing a renaissance. However, a key challenge remains to distinguish signaling functions of metabolism from its canonical bioenergetic and biosynthetic roles, which underlie cellular homeostasis. Here, we tackled this challenge using mouse embryonic axis segmentation as an experimental model. First, we found that energetically subminimal amounts of glucose can support ongoing segmentation clock activity, providing evidence that glycolysis exerts a signaling function. Using a dynamical systems approach based on entrainment, we identified fructose 1,6-bisphosphate (FBP) as the potential signaling metabolite. Functionally, we demonstrated that glycolytic flux/FBP control the segmentation clock period and Wnt signaling in an anticorrelated manner. Critically, we showed that the slow segmentation clock phenotype caused by elevated glycolysis is mediated by Wnt signaling rather than cellular bioenergetic and biosynthetic state. Combined, our results demonstrate a modular organization of metabolic functions, revealing a signaling module of glycolysis that can be decoupled from its canonical metabolic functions.

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Accepted/In Press date: 19 August 2025
Published date: 19 September 2025
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Identifiers

Local EPrints ID: 506234
URI: http://eprints.soton.ac.uk/id/eprint/506234
DOI: doi:10.1126/sciadv.adz9606
ISSN: 2375-2548
PURE UUID: 2d7ec869-91de-4d3a-b220-8eba2234f8d6
ORCID for Nicole Prior: ORCID iD orcid.org/0000-0003-2856-7052

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Date deposited: 30 Oct 2025 17:50
Last modified: 31 Oct 2025 02:57

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Contributors

Author: Hidenobu Miyazawa
Author: Jona Rada
Author: Nicole Prior ORCID iD
Author: Paul Gerald Layague Sanchez
Author: Emilia Esposito
Author: Daria Bunina
Author: Charles Girardot
Author: Judith Zaugg
Author: Alexander Aulehla

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